例句與造句

1. Synthesis , structure and ionic conductivity of knb0 . 9zr0 . 1o2
   結(jié)構(gòu)及離子導(dǎo)電性
2. Synthesis and ionic conductivity of knb0 . 9mg0 . 1o3 - asolid electrolyte
   固體電解質(zhì)的合成及其離子導(dǎo)電性
3. Comparison of the synthesis methods of na5ysi4o12 and its ionic conductivity
   12的合成方法比較及其離子導(dǎo)電性質(zhì)研究
4. From sem of the polymer , we can found that , the polymer containing no dbp made by solvent of nmp had more and large pores than solvent of dmac , so it had larger liquid uptake and higher ionic conductivity
   從sem測(cè)試圖上也可以看出,不含dbp時(shí),溶劑為nmp條件下制備的聚合物膜孔徑比溶劑為dmac時(shí)大,孔隙多,吸液率大,離子電導(dǎo)率高。
5. Due to its excellently chemical and thermal stability , mechanical properties and nearly pure oxygen ionic conductivity , yttria - stabilized zirconia ( ysz ) has been actively investigated and applied in widely technical fields
   釔穩(wěn)定的氧化鋯( ysz ) ,由于其特別優(yōu)異的化學(xué)及熱穩(wěn)定性、力學(xué)性能,和幾乎純的氧離子導(dǎo)電性,而被廣泛研究和應(yīng)用。
6. It's difficult to find ionic conductivity in a sentence. 用ionic conductivity造句挺難的
7. Recent advances of all - solid - state polymer electrolyte systems that can be probably used in lithium ion batteries are reviewed , focusing on their electrochemical performances , especially the ionic conductivity at room temperature
   綜述了鋰離子電池聚合物常溫固體電解質(zhì)的最新研究進(jìn)展。主要關(guān)注的是電化學(xué)性能，尤其是室溫下的離子電導(dǎo)率。對(duì)性能較好的聚合物固體電解質(zhì)體系進(jìn)行了概述。
8. Recent advances of all - solid - state polymer electrolyte systems that can be probably used in lithium ion batteries are reviewed , focusing on their electrochemical performances , especially the ionic conductivity at room temperature
   摘要綜述了鋰離子電池聚合物常溫固體電解質(zhì)的最新研究進(jìn)展。主要關(guān)注的是電化學(xué)性能，尤其是室溫下的離子電導(dǎo)率。對(duì)性能較好的聚合物固體電解質(zhì)體系進(jìn)行了概述。
9. Some results were obtained that adulterating zirconia with yttria , viz . yttria - stabilized zirconia ( ysz ) , has some oxygen ion vacancies , sequentially has ionic conductivity . and the influence on ysz ion conductivity of the different adulterated concentration of yttria was discussed
   以溶膠-凝膠( sol - gel )理論為基礎(chǔ)，制備釔穩(wěn)定立方相二氧化鋯( ysz )溶膠-凝膠膜，并對(duì)不同的藥品配比進(jìn)行測(cè)試與比較。
10. Solvents of dmac and nmp were used to prepare polymer electrolyte membrane , when the ratio of dbp and solvent was 20 % , both of the ionic conductivity can arrive at 10 - 3 s ? cm - 1 , and the ionic conductivity of polymer made by nmp was 35 % higher than by dmac
    分別用溶劑dmac及nmp制備了聚合物電解質(zhì)膜,在增塑劑與溶劑體積比為20 %時(shí),聚合物膜的離子電導(dǎo)率均能達(dá)到10 - 3s ? cm - 1 ,且以nmp為溶劑的聚合物膜的電導(dǎo)率比以dmac為溶劑的電導(dǎo)率高出大約35 % 。
11. The liquid uptake of polymer electrolyte membrane first increase , then remaining the same as the increasing of ratio of solvents . mechanism capability and ionic conductivity fist increase then decrease during the process , but it changed not much in total . through the test of sem it can be found that the structure of membrane changed little during the process
    在增塑劑含量及聚合物基質(zhì)含量一定的條件下,隨溶劑含量的增大,聚合物膜的吸液率先增大后基本保持不變,機(jī)械強(qiáng)度及離子電導(dǎo)率則先增大后減小,通過sem測(cè)試可知,膜的表面形貌無(wú)明顯變化。
12. Tow types of fuel - cell models can be distinguished : microscopic and macroscopic . this paper adopt agglomerate microscopic model to analyze the fuel cell ' s performance . according to the computation , it can be concluded that the performances are determined by the thickness of the electrode , the effective ionic conductivity , the radius of agglomerate and other parameters
    對(duì)燃料電池單體，建立了微觀的數(shù)學(xué)模型? ?聚塊模型，用nenmanbandj方法計(jì)算熔融碳酸鹽燃料電池陽(yáng)極和陰極的過電位，分析了各種參數(shù)的影響，對(duì)電極的制備，提高單電池的性能，有一定的指導(dǎo)意義。
13. Much attention has been paid on pure or doped zirconia thin films because of their high melting point , low heat conductivity , high ionic conductivity and chemical durability . in the case of metal - oxide - semiconductor ( mos ) devices and high - temperature superconductor ( hts ) wires , zirconia epitaxial thin films are promising buffer layers and have been intensely studied in the past two decades
    純的或摻雜的氧化鋯薄膜因其高熔點(diǎn)、低熱導(dǎo)率、高離子導(dǎo)電能力和高溫化學(xué)穩(wěn)定性而受到相當(dāng)?shù)闹匾?而且氧化鋯外延薄膜在金屬氧化物半導(dǎo)體( mos ) 、高溫超導(dǎo)帶材等領(lǐng)域的應(yīng)用受到越來越多的關(guān)注。
14. With the concentration of liclo4 turning higher , the viscosity of epichlorohydrin crosslinked polyethenoxy ether macromolecule electrolyte increases and the ionic conductivity decreases . with these three layers , the all - solid state electrochromic device has excellent electrochemistry performance , long color preserving time and its life - span is longer than five months
    通過以上三層薄膜材料制成的全固態(tài)電致變色器件電化學(xué)性能良好，顏色持續(xù)時(shí)間長(zhǎng)，放置5個(gè)月后依舊有很好的電致變色性能。
15. The ionic conductivities of lsgm enhanced with the measuring temperature . based on the results of electrical measurements , the relative contribution of the grain interior and grin boundaries to the overall resistance was discussed in detail in relation with the grain boundary effect and mg doping contents . the grain boundary effect decreased monotonously with the increase of mg doping in the range of testing temperature
    在相同測(cè)試溫度下， lsgm體系離子電導(dǎo)率隨著鎂含量的增加而增大，在y = 0 . 2時(shí)達(dá)到最大值，此后電導(dǎo)率隨鎂含量的增加而降低；在測(cè)試溫度范圍內(nèi)，所有l(wèi)sgm樣品的離子電導(dǎo)率均隨溫度的升高而增加。
16. In this article , the bellcore method was used to prepare polymer electrolyte membrane based on pvdf - hfp , and polymer electrolyte membranes under different conditions were prepared by changing sorts of solvents 、 ratio of dbp and solvent . effects of ratio of plasticizer and solvent on the liquid uptake 、 sem 、 mechanism capability 、 ionic conductivity 、 electrochemical stability window of polymer electrolyte membrane were also studied . through optimizing the preparation technics , the integrated effects of additives such as pc 、 ec 、 dbp and nanophase al2o3 on the ionic conductivity 、 liquid uptake were studied
    本文以聚偏氟乙烯-六氟丙烯共聚物pvdf - hfp為基質(zhì),采用bellcore制膜法制備了pvdf - hfp聚合物電解質(zhì)膜,通過改變?cè)鏊軇ヾbp的含量、溶劑的種類及溶劑的含量制備了不同條件下的聚合物電解質(zhì)膜,分別研究了增塑劑含量、溶劑含量等對(duì)聚合物電解質(zhì)膜的吸液率、表面形貌、機(jī)械性能、離子電導(dǎo)率、電化學(xué)穩(wěn)定窗口等的影響;對(duì)制備工藝進(jìn)行了優(yōu)化,研究了各種添加劑如pc 、 ec 、 dbp及納米al2o3對(duì)聚合物電解質(zhì)膜的離子電導(dǎo)率、吸液率等性能的綜合影響。
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